Absorbent article

ABSTRACT

An absorbent article has an absorbent body with a colored fiber layer colored in a different color from a color of any member other than the absorbent body across a whole in a front-back direction and a width direction thereof. The colored fiber layer is visually recognizable from an outside.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application is the U.S. national stage application of International Application PCT/JP2016/072990, filed Aug. 4, 2016, which international application was published on Apr. 6, 2017, as International Publication WO 2017/056716. The International Application claims priority of Japanese Patent Application No. 2015-194548, filed Sep. 30, 2015. The international application and Japanese application are both incorporated herein by reference, in entirety.

TECHNICAL FIELD

The present invention relates to an absorbent article having an improved aesthetic appearance.

BACKGROUND ART

In an absorbent article such as a disposable diaper, a sanitary napkin, etc., it has been common to mask the presence of an absorbent body by coloring the absorbent body in the same type of color as that of a surrounding member since it is generally preferable to form an appearance of the absorbent article similar to that of underwear.

Meanwhile, since the absorbent body is a main functional member in the absorbent article, it may be considered that product performance appears at a position or in a shape thereof. Therefore, the shape of the absorbent body is printed on a product package in many cases.

However, in a conventional absorbent article, it has been difficult to recognize a position and shape of an absorbent body in an actual product and it has been difficult to appeal a function and functional beauty thereof to a user.

CITATION LIST Patent Literature

Patent Literature 1: JP 2001-258936 A

Patent Literature 2: JP 2006-136735 A

SUMMARY OF INVENTION Technical Problem

In this regard, a main object of the invention is to allow recognition of a position and shape of an absorbent body in an actual product, thereby appealing a function and functional beauty thereof to a user.

Solution to Problem

The invention solving the above-mentioned problem is as follows.

Invention Described in Claim 1

An absorbent article, comprising

an absorbent body having a shape made of fibers, wherein

the absorbent body has a colored fiber layer colored in a different color from a color of any member other than the absorbent body across a whole in a front-back direction and a width direction thereof, and

the colored fiber layer is visually recognizable from an outside.

Effects

In the invention, the position and the shape of the absorbent body in the absorbent article may be recognized in an actual product by providing the colored fiber layer in the absorbent body over the whole in the front-back direction and the width direction and allowing the colored fiber layer to be visually recognizable from the outside. Therefore, it is possible to appeal a function and functional beauty according to the position and the shape of the absorbent body to a user. In addition, since an area of the absorbent body occupying the absorbent article is large, it is possible to color the product without separately providing a sheet for printing and it is also possible to change a product color just depending on the color of the colored fiber layer. For example, it is possible to simply manufacture a product for men and a product for women in consideration of the difference between men and women by coloring the fiber layers of the products with respective colors.

Invention Described in Claim 2

The absorbent article according to claim 1, wherein the absorbent body has a colored fiber layer located closest to a back face side and a non-colored fiber layer located on a front face side of the colored fiber layer.

Effects

When the colored fiber layer is located closest to the back face side of the absorbent body and the non-colored fiber layer located on the front face side of the colored fiber layer as described in this claim, the colored fiber layer is easily and visually recognized from the back face side of the absorbent article, that is, in a worn state. In addition, when the non-colored fiber layer is provided on the front face side of the colored fiber layer, even in a case in which a colored component flows out from the colored fiber layer due to moisture of excretion, the non-colored fiber layer may absorb and hold the colored component, thereby preventing the colored component from adhering to the skin. In addition, when a non-colored (white) fiber layer is provided on a skin-contacting side, the user may not feel uneasy about an influence on health in appearance.

Invention Described in Claim 3

The absorbent article according to claim 2, wherein the colored fiber layer is set to a layer not containing high absorbent polymer particles, and the non-colored fiber layer is set to a layer containing high absorbent polymer particles.

Effects

When the colored fiber layer corresponds to a layer containing high absorbent polymer particles, the color of the colored fiber layer becomes thin due to absorption and expansion of the high absorbent polymer particles. Therefore, it is preferable that the colored fiber layer is set to the layer not containing the high absorbent polymer particles closest to the back face side as described in this claim to prevent change in color due to such absorption. However, if a structure, in which the high absorbent polymer particles are not contained in the colored fiber layer on the back face side, would be merely adopted, an absorption amount would decrease, and returning would be likely to occur. Thus, it is desirable that the high absorbent polymer particles are contained in the non-colored fiber layer on the front face side.

Invention Described in Claim 4

The absorbent article according to any one of claims 1 to 3, wherein the colored fiber layer has a slit penetrating the colored fiber layer in a thickness direction.

Effects

In general, it is known that a slit penetrating an absorbent body of an absorbent article in a thickness direction is formed in the absorbent body to improve liquid diffusibility. A position with respect to a body during use is important for such a slit. In a conventional one, it is difficult to recognize a position and a shape of the slit similarly to the position and the shape of the absorbent body. On the other hand, in the invention, the slit is provided in the colored fiber layer, and thus the position and the shape thereof are recognizable.

Invention Described in Claim 5

The absorbent article according to claim 4, wherein the colored fiber layer is provided with an excretion indicator at a position overlapping a formation position of the slit.

Effects

In the absorbent article, it is known that an excretion indicator whose color changes (including change from a colorless state to a colored state and change from a colored state to a colorless state) due to contact with moisture when excretion occurs is provided. However, when the excretion indicator is provided at a position having colored fiber layer, there is concern that change in color of the excretion indicator may be inconspicuous or difficult to view. On the other hand, when the slit is provided in the colored fiber layer, and the excretion indicator is provided at the position overlapping the position of the slit, the colored fiber layer does not serve as background of the excretion indicator. Thus, change in color of the excretion indicator is prevented from being inconspicuous or difficult to view.

Invention Described in Claim 6

The absorbent article according to any one of claims 1 to 5, wherein the colored fiber layer is colored in a color, value of which in a Munsell color system is in a range of 4 to 9.

Effects

In this way, the color of the colored fiber layer colored in a somewhat light color changes to the deeper color in response to absorption of the moisture of excretion, and thus the fibers may be used in place of the excretion indicator. In addition, a part of the absorbent body used for absorption may be detected, and thus the layer may be used as a guide to know when the absorbent article should be changed.

Invention Described in Claim 7

The absorbent article according to any one of claims 1 to 6, wherein the absorbent article corresponds to

an underpants-type disposable diaper including a crotch portion, a ventral side part extending at a front side of the crotch portion, a dorsal side part extending at a back side of the crotch portion, and the absorbent body provided in a range including the crotch portion, both side portions of the ventral side part and both side portions of the dorsal side part being joined together, respectively, or

a tape-type disposable diaper including a crotch portion, a ventral side part extending at a front side of the crotch portion, a dorsal side part extending at a back side of the crotch portion, the absorbent body provided in a range including the crotch portion, and fastening tapes protruding from both side portions of the dorsal side part, respectively, to be connected to an external surface of the ventral side part.

Effects

The underpants-type disposable diaper or the tape-type disposable diaper may be in an inappropriate worn state in which the crotch portion is partially rolled inward or a center position in the width direction is shifted even when the diaper seems to be properly worn at first glance. The inappropriate worn state difficult to distinguish at first glance is easy to notice when the position and the shape of the absorbent body can be recognized by the user. Therefore, the invention is suitable for the underpants-type disposable diaper or the tape-type disposable diaper.

Advantageous Effects of Invention

As described above, the invention has an advantage that it is possible to recognize a position and shape of an absorbent body in an actual product, thereby appealing a function and functional beauty thereof to a user.

BRIEF DESCRIPTION OF DRAWINGS

FIG. 1 is a plan view of a spread state illustrating an internal surface of an underpants-type disposable diaper.

FIG. 2 is a plan view of a spread state illustrating an external surface of the underpants-type disposable diaper.

FIG. 3 is a cross-sectional view illustrating a layer configuration of 3-3 cross section of FIG. 1.

FIG. 4 is a cross-sectional view illustrating a layer configuration of 4-4 cross section of FIG. 1.

FIG. 5 is a cross-sectional view illustrating a layer configuration of 5-5 cross section of FIG. 1.

FIG. 6 is a perspective view of the underpants-type disposable diaper.

FIG. 7 is a cross-sectional view illustrating a layer configuration of a cross section corresponding to 3-3 cross section of FIG. 1.

FIG. 8 is a cross-sectional view illustrating a layer configuration of a cross section corresponding to 4-4 cross section of FIG. 1.

FIG. 9 is a plan view of a spread state illustrating an external surface of an underpants-type disposable diaper.

FIG. 10 is a cross-sectional view illustrating a layer configuration of 6-6 cross section of FIG. 9.

FIG. 11 is a cross-sectional view illustrating a layer configuration of a cross section corresponding to 3-3 cross section of FIG. 1.

FIG. 12 is a cross-sectional view illustrating a layer configuration of an absorbent element.

FIG. 13 is a cross-sectional view of the absorbent element.

FIG. 14 is a schematic view illustrating a manufacturing facility for the absorbent element.

FIG. 15 is a plan view illustrating a manufacturing process of the absorbent element.

FIG. 16 is a cross-sectional view illustrating the manufacturing process of the absorbent element.

FIG. 17 is a schematic view illustrating a manufacturing facility for an absorbent element.

FIG. 18 is a plan view illustrating a manufacturing process of the absorbent element.

FIG. 19 is a cross-sectional view illustrating the manufacturing process of the absorbent element.

DESCRIPTION OF EMBODIMENTS

Hereinafter, an embodiment of the invention will be described in detail with reference to accompanying drawings.

FIG. 1 to FIG. 6 illustrate an example of an underpants-type disposable diaper. A dotted portion in a cross-sectional view indicates an adhesive serving as joining means that joins respective constituent members located on a front face side and a back face side, and is formed by solid, bead, curtain, summit or spiral coating, etc. of a hot melt adhesive, etc. or by application of the adhesive to an outer peripheral surface of an elastically stretchable member with a comb gun or Surewrap nozzle, etc. in place of or together with the above-mentioned coating in a fixed portion of the elastically stretchable member. It is possible to use fixing means based on material welding such as heat sealing, ultrasonic sealing, etc. as the joining means that joins the respective constituent members.

The underpants-type disposable diaper of the present mode includes an outer member including a single segment or two discrete segments 12F and 12B and disposed in a front body F and a back body B and an inner member 200 fixed to the inner face of the outer member 12F and 12B from the front body F to the back body B through a crotch portion, and both side portions of the outer member 12F of the front body F and both side portions of the outer member 12B of the back body B are joined to form side seal portions 12A. Reference symbol Y indicates a whole length (a longitudinal direction from an edge of a waist opening WO of the front body F to an edge of a waist opening WO of the back body B) of the diaper in a spread state, and reference symbol X indicates a maximum width of the diaper in the spread state.

The inner member 200 is a portion that absorbs and holds excretion such as urine, and the outer member 12 is a portion for supporting the inner member 200 with respect to a body of a wearer. In the present mode, an upper opening of the outer members 12F and 12B corresponds to the waist opening WO through which the trunk of a wearer passes, and a portion surrounded by each of lower edges of the outer members 12F and 12B and side edges of the inner member 200 at both sides of the inner member 200 in the width direction corresponds to a leg opening LO through which the leg passes.

In addition, the underpants-type disposable diaper of the present mode includes a lower torso region T defined as a longitudinal range having the side seal portions 12A (a longitudinal range from the waist opening WO to an upper end of the leg opening LO) and an intermediate region L defined as a front-back direction range of a portion forming the leg opening LO (between a longitudinal region having the side seal portions 12A of the front body F and a longitudinal region having the side seal portions 12A of the back body B). The lower torso region T may be conceptually divided into a “waist portion” W forming an edge portion of the waist opening and an “under-waist portion” U corresponding to a portion below the “waist portion” W. Normally, in a case of having a boundary at which stretching stress in the width direction changes (for example, a fineness or a stretch rate of the elastically stretchable member changes) in the lower torso region T, the waist opening WO side with respect to the boundary closest to the waist opening WO corresponds to the waist portion W. In a case of not having such a boundary, the waist opening WO side with respect to the absorbent body 56 or the inner member 200 corresponds to the waist portion W. Longitudinal lengths thereof are different according to a size of a product and may be appropriately determined. However, as an example, the waist portion W may be set to 15 to 40 mm, and the under-waist portion U may be set to 65 to 120 mm Meanwhile, both side edges of the intermediate region L are narrowed in a U shape or a curved shape to conform to the leg of the wearer, and this portion corresponds to a part into which the leg of the wearer is put. As a result, the underpants-type disposable diaper in the spread state from which the side seal portions 12A are peeled off substantially has an hourglass shape as a whole.

(Outer Member)

The outer members 12F and 12B, respectively, function as a front outer member 12F in the front body F and a back outer member 12B in the back body B. The front outer member 12F and the back outer member 12B are discontinuous or separated from each other in the regions adjacent to the legs. A clearance 12 d may be set to about 150 to 250 mm. Although not illustrated, it is possible to paste a crotch portion cover sheet made of a nonwoven fabric, etc. to cover a part (for example, over a whole of a portion in the front-back direction exposed between the front side outer member 12F and the back side outer member 12B and not extending up to front and back ends of the inner member 200, and a degree at which both side edges in the width direction does not reach up to the both side edges of the inner member 200) or a whole of an exposed portion of a back surface of the inner member 200 in this separated portion. In addition, as illustrated in FIG. 9 and FIG. 10, the outer member 12 may be integrally formed to continue through the crotch from the front body F to the back body B. That is, the outer members 12F and 12B in the front body F and the back body B, respectively, are separated as two discrete segments in the former configuration, whereas the outer members 12 in the front body F and back body B are unified as the single segment in the latter configuration.

The outer members 12F and 12B have a lower torso portion which corresponds to a longitudinal range corresponding to the lower torso region T. In addition, in the present mode, the front side outer member 12F has a part corresponding to the intermediate region L. However, the back side outer member 12B has a gluteal region cover portion 14 extending from the lower torso region T to the intermediate region L side. Although not illustrated, an inguinal cover portion extending from the lower torso region T to the intermediate region L side may be provided in the front side outer member 12F, it is possible to adopt a mode in which the inguinal cover portion is provided and the gluteal region cover portion is not provided, or a part corresponding to the intermediate region L may not be provided in both the front side outer member 12F and the back side outer member 12B. In addition, in the illustrated mode, a lower edge of the gluteal region cover portion 14 is formed in a linear shape along the width direction similarly to the lower edge of the front side outer member 12F. However, the lower edge may be set to a curve located on the waist opening side toward an outer side in the width direction.

As illustrated in FIG. 2 to FIG. 5, the outer members 12F and 12B are formed by joining an outer sheet layer 12S and an inner sheet layer 12H using joining means such as a hot melt adhesive, welding, etc. In this way, a front surface and a back surface are formed. The outer sheet layer 12S and the inner sheet layer 12H may be formed by folding one sheet material such that a fold is located on the waist opening side as illustrated in FIG. 5, or may be formed by pasting two sheet materials together as illustrated in FIG. 10. In addition, in at least one of the outer sheet layer 12S and the inner sheet layer 12H, a part thereof may be formed by a different sheet material from that of another part.

As the sheet material used for the outer sheet layer 12S and the inner sheet layer 12H, any material may be used without particular restriction as long as the material has a shape of a sheet. However, a nonwoven fabric is preferably used. A raw material fiber of the nonwoven fabric is not particularly restricted. Examples thereof may include a synthetic fiber such as an olefin synthetic fiber such as polyethylene, polypropylene, etc., a polyester synthetic fiber, a polyamide synthetic fiber, etc., a regenerated fiber such as rayon or cupra, a natural fiber such as cotton, or a mixed fiber, a composite fiber, etc. using two types or more thereof. Further, the nonwoven fabric may be manufactured by any process. Examples of a processing method may include a known method such as a spun lace method, a spun bond method, a thermal bond method, a melt blown method, a needle-punch method, an air-through method, a point bond method, etc. In particular, in terms of flexibility, a nonwoven fabric such as an SMS nonwoven fabric, an SMMS nonwoven fabric, etc. formed by interposing a melt blown nonwoven fabric layer of one layer or a plurality of layers of a polypropylene ultrafine fiber between spun bond nonwoven fabric layers of a polypropylene fiber is suitable for the outer sheet layer 12S and the inner sheet layer 12H.

In the case of using the nonwoven fabric, a fineness is preferably set to about 0.5 to 2.5 dtex, and a basis weight is preferably set to about 10 to 30 g/m². Therefore, a total basis weight of the nonwoven fabric used for the outer members 12F and 12B is preferably about 20 to 60 g/m².

Further, an elongated elastically stretchable member 19 (15 to 18) such as a rubber thread is provided at a predetermined stretch rate in a stretchable structure-formed area in a waist direction between the outer sheet layer 12S and the inner sheet layer 12H in the outer members 12F and 12B. Synthetic rubber or natural rubber may be used as the elongated elastically stretchable member 19. At least one of a hot melt adhesive based on various application schemes and fixing means based on material welding such as heat sealing, ultrasonic sealing, etc. may be used for joining of the outer sheet layer 12S and the inner sheet layer 12H in the outer members 12F and 12B or fixing of the elongated elastically stretchable members 15 to 19 interposed therebetween. When the outer sheet layer 12S and the inner sheet layer 12H are joined on the entire surfaces of the outer members 12F and 12B, flexibility is impaired. Thus, it is preferable that the outer sheet layer 12S and the inner sheet layer 12H are intermittently joined in at least one of the front-back direction and the width direction (for example, the layers are not joined at a passing position of the elongated elastically stretchable member 19 or conversely the layers are joined only at the passing position). Both end portions of the elongated elastically stretchable member 19 in the width direction are fixed to the outer sheet layer 12S and the inner sheet layer 12H (fixing end portions). It is preferable that the elongated elastically stretchable member 19 is not joined to the outer sheet layer 12S and the inner sheet layer 12H between the fixing end portions in terms of flexibility. However, the elongated elastically stretchable member 19 may be joined therebetween. The illustrated mode corresponds to the latter, and the whole of the elongated elastically stretchable member 19 in a longer direction is fixed to the outer sheet layer 12S and the inner sheet layer 12H. When the elongated elastically stretchable member 19 is fixed to the outer sheet layer 12S and the inner sheet layer 12H using a hot melt adhesive, it is possible to use a scheme of applying the hot melt adhesive only to an outer peripheral surface of the elongated elastically stretchable member 19 by application means such as comb gun or Surewrap nozzle, etc. and interposing the elongated elastically stretchable member 19 between both the sheet layers 12S and 12H, or use a scheme of applying the hot melt adhesive to at least one of the outer sheet layer 12S and the inner sheet layer 12H and interposing the elongated elastically stretchable member 19 therebetween.

The illustrated mode will be described in more detail. First, a plurality of waist portion elastically stretchable members 17 is attached at an interval in an up-down direction and at a predetermined stretch rate in a stretched state along the width direction to be continuous over a whole in the width direction between the outer sheet layer 12S and the inner sheet layer 12H in the waist portion W of the outer members 12F and 12B. Among the waist portion elastically stretchable members 17, one or a plurality of members arranged in a region adjacent to the under-waist portion U may overlap with the inner member 200 or may be provided at each of both sides of a central portion in the width direction overlapping the inner member 200 except for the central portion. As the waist portion elastically stretchable members 17, it is preferable to attach about 3 to 22 rubber threads having a fineness of about 155 to 1880 dtex, particularly 470 to 1240 dtex (in the case of synthetic rubber. In the case of natural rubber, a cross-sectional area is about 0.05 to 1.5 mm², particularly 0.1 to 1.0 mm²) at an interval of 4 to 12 mm such that each of the rubber threads has a stretch rate of about 150 to 400%, particularly 220 to 320%. In addition, not all the waist portion elastically stretchable members 17 may have the same fineness and stretch rate. For example, a fineness and a stretch rate of an elastically stretchable member may be different between an upper portion and a lower portion of the waist portion W.

In addition, in each part on an upper side and both sides in the width direction of a central portion overlapping the inner member 200 in the width direction except for the central portion between the outer sheet layer 12S and the inner sheet layer 12H in the under-waist portion U of the outer members 12F and 12B, a plurality of under-waist portion elastically stretchable members 15 and 18 including the elongated elastically stretchable member is attached at an interval in the up-down direction and at a predetermined stretch rate in a stretched state along the width direction to be continuous over the whole in the width direction.

As the under-waist portion elastically stretchable members 15 and 18, it is preferable to attach about 5 to 30 rubber threads having a fineness of about 155 to 1880 dtex, particularly 470 to 1240 dtex (in the case of synthetic rubber. In the case of natural rubber, a cross-sectional area is about 0.05 to 1.5 mm², particularly 0.1 to 1.0 mm²) at an interval of 1 to 15 mm, particularly 3 to 8 mm such that each of the rubber threads has a stretch rate of about 200 to 350%, particularly 240 to 300%.

In addition, in each part on both sides in the width direction of a central portion overlapping the inner member 200 in the width direction except for the central portion between the outer sheet layer 12S and the inner sheet layer 12H in the gluteal region cover portion 14 of the back side outer member 12B, a plurality of cover portion elastically stretchable members 16 including the elongated elastically stretchable members is attached at an interval in the up-down direction and at a predetermined stretch rate in a stretched state along the width direction to be continuous over the whole in the width direction.

As the cover portion elastically stretchable members 16, it is preferable to attach about 2 to 10 rubber threads having a fineness of about 155 to 1880 dtex, particularly 470 to 1240 dtex (in the case of synthetic rubber. In the case of natural rubber, a cross-sectional area is about 0.05 to 1.5 mm², particularly 0.1 to 1.0 mm²) at an interval of 5 to 40 mm, particularly 5 to 20 mm such that each of the rubber threads has a stretch rate of about 150 to 300%, particularly 180 to 260%.

When the inguinal cover portion is provided in the front side outer member 12F, the cover portion elastically stretchable member may be similarly provided.

When the elastically stretchable member 19 provided in the outer members 12F and 12B (the under-waist portion elastically stretchable members 15 and 18 and the cover portion elastically stretchable member 16 in the illustrated mode) is provided at each of both sides in the width direction of a portion overlapping the inner member 200 except for a part or a whole of the portion as in the illustrated mode, the inner member 200 does not contract in the width direction more than necessary, a poor appearance such as a lumpy appearance is not obtained, and absorbency is not reduced. In addition to a mode in which the elastically stretchable member 19 is present only at both sides in the width direction, this mode includes a mode in which the elastically stretchable member 19 is present across the inner member 200 from one side to the other side thereof in the width direction, the elastically stretchable member 19 is finely cut as indicated by reference symbol 12X in FIG. 2 and FIG. 4 in a widthwise intermediate portion or whole portion of a part overlapping the inner member 200, a contraction force does not act thereon (substantially, equivalent to a case in which the elastically stretchable member is not provided), and only both sides thereof in the width direction is configured as a contraction force acting part. An arrangement mode of the elastically stretchable member 19 provided in the outer members 12F and 12B is not limited to the above example. A portion or a whole of the elastically stretchable member 19 may be provided across the inner member 200 from the one side to the other side thereof in the width direction such that a stretching force acts over a whole in the width direction including the part overlapping the inner member 200.

(Inner Member)

A shape and a structure of the inner member 200 are not particularly restricted. For example, a shape and a structure described below may be adopted. An arbitrary shape may be adopted for the inner member 200, and a rectangular shape is adopted in the illustrated mode. As illustrated in FIG. 3 to FIG. 5, the inner member 200 includes a liquid pervious top sheet 30 corresponding to a skin side of the wearer, a liquid impervious sheet 11, and an absorbent element 50 interposed therebetween, and corresponds to a main unit section having an absorbing function. Reference symbol 40 indicates an intermediate sheet (also referred to as a second sheet) provided between the top sheet 30 and the absorbent element 50 to promptly transfer a liquid permeating through the top sheet 30 to the absorbent element 50, and reference symbol 60 indicates a leg gather 60, which is a part rising toward the leg of the wearer, extending along both sides of an absorption surface of the inner member in the width direction to prevent excretion from leaking to both sides of the inner member 200.

(Top Sheet)

A material is used for the top sheet 30 without particular restriction as long as the material corresponds to a liquid pervious material such as a perforated or nonporous nonwoven fabric, a porous plastic sheet, etc. However, when the top sheet 30 also serves as a covering material for a liquid impervious sheet 64 of the leg gather 60 as in the mode illustrated in FIG. 3 and FIG. 4, a nonwoven fabric is used. In addition, a raw material fiber of the nonwoven fabric is not particularly restricted. Examples thereof may include a synthetic fiber such as an olefin synthetic fiber such as polyethylene, polypropylene, etc., a polyester synthetic fiber, a polyamide synthetic fiber, etc., a regenerated fiber such as rayon or cupra, a natural fiber such as cotton, or a mixed fiber, a composite fiber, etc. using two types or more thereof. Further, the nonwoven fabric may be manufactured by any process. Examples of a processing method may include a known method such as a spun lace method, a spun bond method, a thermal bond method, a melt blown method, a needle-punch method, an air-through method, a point bond method, etc. For example, when flexibility and draping are required, the spun bond method and the spun lace method are preferable processing schemes, whereas when bulkiness and softness are required, the air-through method, the point bond method, and the thermal bond method are preferable processing schemes.

In addition, the top sheet 30 may be made of one sheet or a stacked sheet obtained by bonding two or more sheets. Similarly, the top sheet 30 may be made of one sheet or two or more sheets in a plane direction.

If the both sides of the top sheet 30 in the width direction do not function as the covering material of the liquid impervious sheets 64 of the leg gathers 60, for example, the top sheet 30 can be passed between the absorbent element 50 and the leg gather 60 to the back face side of the absorbent element 50 and bonded to the liquid impervious sheet 11 and the leg gather 60 using a hot melt adhesive, etc. to prevent penetration of liquid as in the mode illustrated in FIG. 7 and FIG. 8.

(Intermediate Sheet)

As in the mode illustrated in FIG. 7 and FIG. 8, the intermediate sheet (also referred to as a “second sheet”) 40 superior in hydrophilicity to the top sheet may be provided on the back face side of the top sheet 30. The intermediate sheet 40 is provided to prevent a returning phenomenon of an absorbed liquid from the absorbent body and to ensure a smooth touch on the top sheet 30. The intermediate sheet 40 may be omitted.

Examples of the intermediate sheet 40 may include a similar material to that of the top sheet 30, spun lace, spun bond, SMS, pulp nonwoven fabric, a mixed sheet of pulp and rayon, point bond or crepe tissue. In particular, air-through nonwoven fabric is bulky, and thus is preferable. It is preferable to use a composite fiber having a core-sheath structure for the air-through nonwoven fabric. In this case, a resin used for a core may be polypropylene (PP). However, polyester (PET) having high rigidity is preferable. A basis weight is preferably 20 to 80 g/m², more preferably 25 to 60 g/m². A fineness of a raw material fiber of the nonwoven fabric is preferably 2.2 to 10 dtex. In order to increase the bulkiness of the nonwoven fabric, it is preferable to use an eccentric fiber having no core in a center, a hollow fiber, and an eccentric and hollow fiber as a mixed fiber of a whole or a part of the raw material fiber.

The intermediate sheet 40 of the illustrated mode is shorter than a width of the absorbent body 56 and disposed at a center. However, the intermediate sheet 40 may be provided over the maximum width. A length of the intermediate sheet 40 in the longer direction may be equal to a length of the absorbent body 56 or within a short length range centered on a region in which a liquid is received.

(Liquid Impervious Sheet)

A material of the liquid impervious sheet 11 provided on the back surface side of the absorbent body 56 is not particularly limited. However, examples thereof may include a plastic film made of an olefin resin such as polyethylene, polypropylene, etc. A material having liquid impermeability and moisture permeability which has been recently favorably used from the viewpoint of prevention of unevenness is preferably used for the liquid impervious sheet 11. A microporous plastic film obtained by kneading an inorganic filler in an olefin-based resin such as polyethylene or polypropylene, molding a sheet, and then performing stretching in a monoaxial or biaxial direction is widely used as the plastic film having moisture permeability.

The liquid impervious sheet 11 may be allowed to serve as the liquid pervious film 64 in the leg gather 60 by being laterally extended beyond the absorbent body 56 as in the mode illustrated in FIG. 3 and FIG. 4, may be set to have a width fit to the back surface side of the absorbent element 50 as illustrated in FIG. 7 and FIG. 8, or may be extended up to both side portions of a surface of the absorbent element 50 on the top sheet 30 side by being wrapped around the both sides of the absorbent element 50 in the width direction.

In addition, on a surface of the liquid impervious sheet 11 (a surface on the absorbent body 56 side), it is possible to provide an excretion indicator 80 whose color changes (including change from a colorless state to a colored state and change from a colored state to a colorless state) due to contact with moisture when excretion occurs. The excretion indicator 80 may be provided in another part such as between the absorbent body 56 and the liquid impervious sheet as long as the excretion indicator 80 is provided between the top sheet 30 and the liquid impervious sheet 11.

(Absorbent Element)

The absorbent element 50 includes the absorbent body 56 and a wrapping sheet 58 wrapping the entire absorbent body 56.

(Absorbent Body)

The absorber 56 may be composed of a fiber assembly, and high absorbent polymer particles may be mixed and contained over a portion or a whole thereof as necessary.

Examples of the fiber assembly include an assembly of short fibers, such as pulp fibers and synthetic fibers, assembled through fiber stacking, and an assembly of filaments acquired through opening tows (fiber bundles) of synthetic fibers, such as cellulose acetate, as required. The fiber basis weight of stacked short fibers may be within the range of approximately for example, 100 to 300 g/m², and the fiber basis weight of a filament assembly may be within the range of approximately for example, 30 to 120 g/m². A fineness of synthetic fiber is within the range of for example, 1 to 16 dtex, preferably 1 to 10 dtex, more preferably 1 to 5 dtex. Although the filaments in a filament assembly may be composed of non-crimped fiber, it should preferably be crimped fiber. The degree of crimp of crimped fiber is, for example, within the range of for example, 5 to 75 per inch, preferably 10 to 50 per inch, more preferably 15 to 50 per inch. Uniformly crimped fiber is often used.

The absorbent body 56 has a colored fiber layer 52 colored in a different color from a color (normally white) of any member other than the absorbent body 56 over a whole part in the front-back direction and the width direction, and the colored fiber layer 52 (that is, an outer circumferential shape of the absorbent body 56) is visually recognizable from the outside. In this way, it is possible to recognize the position and the shape of the absorbent body 56 in the underpants-type disposable diaper in an actual product illustrated in FIG. 6, and to appeal a function and functional beauty due to the position and the shape of the absorbent body 56 to a user. In addition, since an area of the absorbent body 56 occupying the underpants-type disposable diaper is large, it is possible to color the product without separately providing a sheet for printing and it is also possible to change a product color just depending on the color of the colored fiber layer. For example, it is possible to simply manufacture a product for men and a product for women in consideration of the difference between men and women by coloring the fiber layers of the products with respective colors.

The colored fiber layer 52 may be formed by dyeing fibers used for the absorbent body 56 and shaping a whole or a partial layer in the thickness direction of the absorbent body 56 using the dyed fibers. Dyeing is not particularly limited, and it is possible to use an artificial colorant typified by a tar dye which is clear and hardly discolored, etc. The fibers of the colored fiber layer 52 may be colored in any color as long as the fibers can be colored in a color different from that of any member other than the absorbent body 56. However, when the fibers are colored in a color, value of which in the Munsell color system is in a range of 4 to 9, that is, a somewhat light color, the color changes to a deeper color in response to absorption of moisture of excretion, and thus the fibers may be used in place of the excretion indicator. In addition, a part of the absorbent body used for absorption may be detected, and thus the layer may be used as a guide to know when an underpants-type disposable diaper should be changed.

The colored fiber layer 52 may form the whole absorbent body 56 as illustrated in FIGS. 12(b) and 12(c) and FIG. 19, and may merely form a part in the thickness direction such that the other part corresponds to a non-colored fiber layer 51 as illustrated in FIG. 12(a) and FIG. 13. In particular, when the absorbent body 56 has the colored fiber layer 52 located closest to the back face side and the non-colored fiber layer 51 located on the front face side of the colored fiber layer as illustrated in FIG. 12(a), the colored fiber layer 52 is easily and visually recognized from the back face side of the underpants type disposable diaper, that is, in a worn state. In addition, when the non-colored fiber layer 51 is provided on the front face side of the colored fiber layer 52, even in a case in which a colored component flows out from the colored fiber layer 52 due to moisture of excretion, the non-colored fiber layer 51 may absorb and hold the colored component, thereby preventing the colored component from adhering to the skin.

In addition, in a mode in which the absorbent body 56 has the colored fiber layer 52 located closest to the back face side and the non-colored fiber layer 51 located on the front face side of the colored fiber layer as illustrated in FIG. 12(a), it is preferable that the colored fiber layer 52 is set to a layer not containing high absorbent polymer particles, and the non-colored fiber layer 51 is set to a layer containing high absorbent polymer particles. When the colored fiber layer 52 corresponds to a layer containing the high absorbent polymer particles, the color of the colored fiber layer 52 becomes thin due to absorption and expansion of the high absorbent polymer particles. Therefore, it is preferable that the colored fiber layer 52 is set to the layer not containing the high absorbent polymer particles closest to the back face side to prevent change in color due to such absorption. In addition, in a structure where the high absorbent polymer particles are not contained in the colored fiber layer 52 on the back face side, an absorption amount decreases and returning is likely to occur. Thus, it is desirable that the high absorbent polymer particles 56P are contained in the non-colored fiber layer 51 on the front face side.

The absorbent body 56 may have a rectangular shape. However, when an hourglass shape whose width is narrower than widths of both front and back sides is formed due to the narrowing portions 53 in a middle in the front-back direction as illustrated in FIG. 6, a fitting property of the absorbent body 56 and the leg gather 60 with respect to the leg is improved, and thus the hourglass shape is preferable. Dimensions of the absorbent body 56 may be appropriately determined. However, it is preferable that the absorbent body 56 extends to a peripheral edge portion of the inner member 200 or to the vicinity thereof in the front-back direction and the width direction. Reference numeral 56 x indicates the width of the absorbent body 56.

In addition, in the absorbent body 56, a slit 54 penetrating therethrough in the thickness direction may be extended in the front-back direction in order to improve liquid diffusibility in the front-back direction. As long as the slit 54 is provided in the crotch portion, a length thereof in the front-back direction is not particularly restricted. Therefore, the slit 54 may be provided across the whole absorbent body 56 in the front-back direction. However, it is desirable that the slit 54 is extended from a front side to a back side of the crotch portion as in the illustrated mode. It is preferable that one or two linear slits 54 are provided. However, three or more slits may be provided, and the slit may have a curved shape.

In particular, when such a slit 54 is provided in the colored fiber layer 52, a position and a shape thereof may be recognized by the user, and thus positioning with respect to a body during use becomes easy. In addition, in a case of providing the above-described excretion indicator 80, when the excretion indicator 80 is provided at a position of the colored fiber layer 52, there is concern that change in color of the excretion indicator 80 may be inconspicuous or difficult to view. On the other hand, when the slit 54 is provided in the colored fiber layer 52, and the excretion indicator 80 is provided at a position overlapping a position of the slit 54, the colored fiber layer 52 does not serve as a background of the excretion indicator 80. Thus, change in color of the excretion indicator 80 is prevented from being inconspicuous or difficult to view. In addition, in this case, the slit 54 may not be formed to penetrate the absorbent body 56 in the thickness direction thereof. The slit may penetrate at least only the colored fiber layer 52 in the thickness direction, and the slit 54 may not be formed in the non-colored fiber layer 51. When such a configuration is adopted, even in a case in which a coloring agent exudes from the excretion indicator 80, there is no concern that the coloring agent may adhere to the skin.

In addition to “particles”, “powders” are also included in the high absorbent polymer particles to be mixed and contained in the absorbent body 56. As the high absorbent polymer particles, particles used in this type of absorbent article may be used as the high absorbent polymer particles without change. For example, it is desirable that the proportion of particles remaining on the sieve is 30% by weight or less by sieving (shaking for 5 minutes) using a 500 μm standard sieve (JIS Z 8801-1: 2006), and it is desirable that the proportion of particles remaining on the sieve is 60% by weight or more by sieving (shaking for 5 minutes) using a 180 μm standard sieve (JIS Z 8801-1: 2006).

A material of the high absorbent polymer particle may be used without particular limitation. However, a material having a water absorption amount (JIS K7223-1996 “Testing method for water absorption capacity of super absorbent polymers”) of 40 g/g or more is suitable. Examples of the high absorbent polymer particle include starch-based, cellulose-based and synthetic polymer-based ones, and it is possible to use a starch-acrylic acid (salt) graft copolymer, a saponified starch-acrylonitrile copolymer, crosslinked sodium carboxymethylcellulose, an acrylic acid (salt) polymer, etc. A normally used granular shape is suitable for a shape of the high absorbent polymer particle. However, another shape may be used.

A particle having a water absorption rate of 70 seconds or less, particularly 40 seconds or less is suitably used as the high absorbent polymer particle. When the water absorption rate is excessively low, so-called returning, in which a liquid supplied into the absorbent body 56 returns to the outside of the absorbent body 56, is likely to occur.

A basis weight amount of the high absorbent polymer particle may be appropriately determined according to the absorption amount required for the use of the absorbent body 56. Therefore, even though it cannot be said unconditionally, the basis weight amount may be set to 50 to 350 g/m². When the basis weight amount of the polymer is less than 50 g/m², it is difficult to ensure the absorption amount. When the basis weight amount exceeds 350 g/m², the effect is saturated.

A ratio of fibers to high absorbent polymer particles in the absorbent body 56 is not particularly limited. However, when a weight ratio of fibers:high absorbent polymer particles corresponds to 50:50 to 20:80, and when comparison is performed at the same area and the same absorption amount, the thinner absorbent body 56 may be obtained. In this case, a thickness 56 t of the absorbent body 56 is not particularly limited. However, the thickness may be set to 3 to 15 mm.

A content rate of the high absorbent polymer particles may be changed in the thickness direction of the absorbent body 56. In particular, when the content rate (weight percentage) of the high absorbent polymer particles in the absorbent body 56 increases stepwise or continuously from the back face side to the front face side, prevention of returning known as a phenomenon in which liquid content of excretion entering the absorbent body 56 side returns to the skin side is excellent. Depending on the purpose, it is possible to increase the content rate of the high absorbent polymer particles in the absorbent body 56 stepwise or continuously from the front face side to the back face side, or increase the content rate stepwise or continuously from both front face side and back face side to the middle in the thickness direction. Stepwise change of the content rate of the high absorbent polymer particles refers to a state in which a plurality of layers having different content rates is stacked and a content rate is substantially constant in each layer as in a case in which the content rate of the high absorbent polymer particles is made different between the colored fiber layer 52 and the non-colored fiber layer 51 in the absorbent body 56 illustrated in FIG. 12(a). Further, continuous changing refers to a state (indicated by gradation in the figure) of not having a layered structure in which a content rate changes stepwise as in the absorbent body 56 illustrated in FIG. 12(b). In addition, “stepwise or continuous increasing” of the content rate of the high absorbent polymer particles in the absorbent body 56 includes a mode in which a layer not containing the high absorbent polymer particles (a layer having a content rate of 0) is included on one side of the front face side and back face side of the absorbent body, and the content rate increases therefrom in addition to a mode in which the high absorbent polymer particles are included in the whole of the absorbent body in the thickness direction.

When the content rate of the high absorbent polymer particles is changed stepwise, the number of layers having a substantially constant content rate is not particularly limited, and a thickness of each layer is not particularly limited. For example, in a case of adopting a two-layered structure including a high content rate layer on the front face side and a low content rate layer on the back face side (for example, in a case of using the non-colored fiber layer 51 as the high content rate layer and the colored fiber layer 52 as the low content rate layer in the mode illustrated in FIG. 12(a)) for the purpose of prevention of returning while adopting a thin absorbent body in which a weight ratio of fibers:high absorbent polymer particles corresponds to 50:50 to 20:80 as described above, it is preferable that a content rate of high absorbent polymer particles in the high content rate layer is set to 50 to 90% by weight, and a content rate of high absorbent polymer particles in the low content rate layer is set to 15 to 60% by weight. In addition, it is preferable that a thickness of the high content rate layer is set to 20 to 60% of the thickness 56 t of the absorbent body 56, and a thickness of the low content rate layer is set to 40 to 80% of the thickness 56 t of the absorbent body 56.

As necessary, the content rate of the high absorbent polymer particles may be changed in the plane direction of the absorbent body 56. For example, the amount of a liquid excretion part may be increased more than the amount of other parts. In a case of considering a difference between men and women, it is possible to raise the content rate on the front side for men and to raise the content rate in the central part for women. Further, it is possible to provide a portion in which no polymer is present locally (for example, in a spot shape) in the plane direction of the absorbent body 56.

(Wrapping Sheet)

It is possible to use a liquid pervious material such as tissue paper, particularly crepe tissue, nonwoven fabric, poly-laminate nonwoven fabric, a sheet having an open small hole, etc. as the material of the wrapping sheet 58. However, it is desirable that the high absorbent polymer particles do not come off from the sheet. When a nonwoven fabric is used in place of crepe tissue, a hydrophilic SMS nonwoven fabric (SMS, SSMMS, etc.) is particularly suitable, and polypropylene, polyethylene/polypropylene composite material, etc. may be used as the material. It is desirable that a basis weight is 5 to 40 g/m², particularly 10 to 30 g/m².

A wrapping mode of the wrapping sheet 58 is set to a winding mode in which winding is performed in a barrel shape to surround the front surface and back surface and both side surfaces of the absorbent body 56 as illustrated in FIG. 3 and FIG. 11 from viewpoints of ease of manufacturing, prevention of leakage of the high absorbent polymer particles from front and back end edges, etc. More specifically, the wrapping sheet 58 includes an intermediate part 58 m located on the one side of the front face side and the back face side of the absorbent body 56 and the both side parts 58 s folded back from the intermediate part 58 m to the other side of the front face side and the back face side of the absorbent body 56, and distal ends of the both side parts 58 s of the wrapping sheet 58 are overlapped on the other side of the absorbent body 56 to form a connecting portion 58 c. Front and back end portions of the wrapping sheet 58 extend beyond the front and the back of the absorbent body 56, and are directly joined at this extended part without interposing the absorbent body 56 therebetween.

The connecting portion 58 c of the wrapping sheet 58 may be located on the front face side or the back face side of the absorbent body 56. However, in a mode in which a weight ratio of fibers:high absorbent polymer particles in the absorbent body 56 corresponds to 50:50 to 20:80 (that is, the absorbent body 56 in which a content rate of the high absorbent polymer particles is high), and the content rate of the high absorbent polymer particles in the absorbent body 56 increases stepwise or continuously from the back face side toward the front face side, the connecting portion 58 c is preferably located on the back face side of the absorbent body 56, that is, on an opposite side from a part in which the content rate of the high absorbent polymer particles in the absorbent body 56 is high. In this way, even when adhesion of the connecting portion 58 c of the wrapping sheet 58 is insufficient, a gap is rarely generated in the connecting portion 58 c. In addition, even when high absorbent polymer particles leaving the absorbent body 56 leak out from the connecting portion 58 c of the wrapping sheet 58, this happens at the back face side of the absorbent element 50, and thus risk of leakage to the skin side of the wearer is small. Further, the overlapping part of the wrapping sheet 58 has higher liquid retentivity than that of another part. Thus, when the overlapping part is located on the front face side of the absorbent body 56, there is concern that returning may be promoted. However, when the overlapping part is located on the back face side of the absorbent body 56, such a problem does not occur.

(Adhesive Structure of Wrapping Sheet and Absorbent Body)

An internal surface of the wrapping sheet 58 is, at a whole part facing the absorbent body 56, bonded to an external surface of the absorbent body 56 through hot melt adhesives H1 and H2. In addition, an overlapping part of end portions of the wrapping sheet 58 in the connecting portion 58 c are joined through a hot melt adhesive H3. It is desirable that the hot melt adhesives H1 and H2 bonding the wrapping sheet 58 and the absorbent body 56 penetrate the absorbent body 56 together to some extent as illustrated in FIG. 13 to form an impregnation layer 562 and hardly penetrate the wrapping sheet 58 or penetrate the wrapping sheet 58 less than the absorbent body 56 to form an adhesive layer 561.

The usage amount of the hot melt adhesives H1 and H2 bonding the wrapping sheet 58 and the absorbent body 56 together may be appropriately determined. However, it is preferable that the usage amount is larger at least in a region A1 at both end portions in the width direction on a side having the connecting portion 58 c of the wrapping sheet 58 in the absorbent body 56 than on the opposite side of the absorbent body 56. In this way, it is possible to enhance an adhesive force of the wrapping sheet 58 and the absorbent body 56 on a side where the adhesive force is likely to decrease (the side having the connecting portion 58 c), and to effectively suppress deformation of the shape of the absorbent body 56 while suppressing the total usage amount of the hot melt adhesives H1 and H2 for bonding the absorbent body 56 and the wrapping sheet 58 together. That is, in the wrapping sheet winding type absorbent element 50, during manufacture, after bonding the lower surface of the absorbent body 56 and the intermediate portion of the wrapping sheet 58 together in transferring the absorbent body 56, the both side parts of the wrapping sheet 58 are folded back and bonded to the upper surface of the absorbent body 56. Thus, both sides of front face side and back face side of the absorbent body may not be bonded under the same condition. Here, to fold back and bond both side parts of the wrapping sheet 58 to the upper surface of the absorbent body 56, when the hot melt adhesive H1, H2 is applied to the upper surface of the absorbent body 56 in advance, and the both side parts of the wrapping sheet 58 are folded back and bonded thereto, there is an advantage that an upper surface shape of the absorbent body 56 is stable. Thus, such a scheme has been adopted. However, the surface of the absorbent body 56 has low density and large unevenness even when the surface is compressed using a pressing device. For this reason, in a case in which the hot melt adhesive H1, H2 is applied to the absorbent body 56 and bonded to the wrapping sheet 58, bonding is relatively weak when compared to a case of applying the hot melt adhesive H1, H2 to the wrapping sheet 58 and bonding the wrapping sheet 58 to the absorbent body 56 at the same usage amount of the hot melt adhesive H1, H2 (refers to a weight per unit area, which is applied to description below). For this reason, it is desirable to reinforce an adhesive force of the wrapping sheet 58 and the absorbent body 56 on the side having the connecting portion 58 c as described above.

The usage amount of the hot melt adhesives H1 and H2 bonding the wrapping sheet 58 and the absorbent body 56 together may be appropriately determined. However, it is preferable to set the amount to a range of 12 to 25 g/m² in a large amount region A1 and to a range of 9 to 15 g/m² in a small amount region (a region outside of the region A1). In addition, it is preferable to set the usage amount in the large amount region A1 to 1.1 to 1.4 times the usage amount in the small amount region.

When a weight ratio of fibers:high absorbent polymer particles in the absorbent body 56 corresponds to 50:50 to 20:80 (that is, a content rate of the high absorbent polymer particles is high in the absorbent body 56) as described above, shape deformation of the both end portions of the absorbent body 56 in the width direction is likely to occur, and thus it is preferable to reinforce such hot melt adhesives H1 and H2 using the large amount region A1.

In addition, when the narrowing portions 53 for improving a fitting property around the legs are formed in the absorbent body 56 as in the illustrated mode, shape deformation is likely to occur at the narrowing portions 53. Thus, in a preferable mode, the large amount region A1 of the hot melt adhesives H1 and H2 is set to a region including the whole narrowing portions 53 in the width direction to suppress shape deformation of the absorbent body 56 at the narrowing portions 53.

Similarly, in a mode in which the slit 54 penetrating the absorbent body 56 in the thickness direction extends in the front-back direction in the intermediate portion of the absorbent body 56 in the width direction as illustrated in FIG. 12(b), shape deformation in the slit 54 is likely to occur. Thus, in a preferable mode, the large amount region of the hot melt adhesives H1 and H2 is set to a region including the whole slit 54 in the width direction to suppress shape deformation of the absorbent body 56 in the slit 54.

The usage amount of the hot melt adhesives H1 and H2 may be created by changing the application amount in one application for each part as illustrated in FIG. 12(c). However, since such a treatment is often difficult, it is preferable to create the usage amount by changing the number of stacked layers (that is, the number of overlapping coatings) of the hot melt adhesives H1 and H2 for each part as in the mode illustrated in FIG. 3, FIG. 7, FIG. 11, and FIGS. 12(a) and 12(b).

In addition, when the usage amount of the hot melt adhesives H1 and H2 is changed based on the number of stacked layers of the hot melt adhesives H1 and H2, it is a preferred mode to make at least one of an application pattern and a type different depending on the coating layer. In this way, it is possible to locally increase the usage amount of the hot melt adhesives H1 and H2 while changing the application pattern or the type of the hot melt adhesives H1 and H2 depending on the application target in a simple manufacturing process.

In particular, as illustrated in FIG. 13, in a preferable mode, the absorbent body 56 has the impregnation layer 562 impregnated with the hot melt adhesive H2 having melt viscosity of 1,000 to 6,000 mPa·s (preferably 2,000 to 5,500 mPa·s) on a side having the connecting portion 58 c, a part of the internal surface of the wrapping sheet 58 facing the impregnation layer 562 is bonded to the external surface of the impregnation layer 562 through the adhesive layer 561 made of the hot melt adhesive H1 having melt viscosity of 4,000 to 9,000 mPa·s (preferably 6,000 to 8,000 mPa·s), and the hot melt adhesive H2 impregnated into the impregnation layer 562 has lower viscosity than that of the hot melt adhesive H1 in the adhesive layer 561. A part of the absorbent body 56 not having the impregnation layer 562 may be bonded to the internal surface of the wrapping sheet 58 only through the adhesive layer 561. In this way, by adopting a structure in which the hot melt adhesives H1 and H2 having different melt viscosities are used at suitable right places as described above, in forming the impregnation layer 562, it is possible to effectively stabilize the shape of the absorbent body 56 by sufficient impregnation in the absorbent body 56 due to sufficiently low melt viscosity of the hot melt adhesive H2. Further, in forming the adhesive layer 561, permeation into the absorbent body 56 and the wrapping sheet 58 is difficult and adhesive properties of the absorbent body 56 and the wrapping sheet 58 are improved due to high melt viscosity of the hot melt adhesive H1. Therefore, it is possible to suppress the shape deformation of the absorbent body 56.

As illustrated in FIG. 13, the hot melt adhesive H2 is impregnated into the absorbent body 56, and the impregnation layer 562 is formed in a range up to a certain depth from an impregnation surface. A thickness of the impregnation layer 562 is not particularly limited. However, the thickness is preferable about 10 to 50% of the thickness 56 t of the absorbent body 56. The whole hot melt adhesive H2 of the impregnation layer 562 in the thickness direction may permeate into the absorbent body 56 as illustrated in FIG. 13(a), and a part of the hot melt adhesive H2 in the thickness direction may remain on the absorbent body 56 as illustrated in FIG. 13(b).

As illustrated in FIG. 13, the adhesive layer 561 is a layer of the hot melt adhesive H1 located mainly between the wrapping sheet 58 and the impregnation layer 562 of the absorbent body 56, and is a layer which impregnates the wrapping sheet 58 to some extent. A part having the impregnation layer 562 is hardly impregnated into the absorbent body 56, and a part not having the impregnation layer 562 is impregnated into the absorbent body 56 more than the part having the impregnation layer 562.

Compositions of the hot melt adhesive H2 of the impregnation layer 562 and the hot melt adhesive H1 of the adhesive layer 561 are not particularly restricted as long as the melt viscosity is within the above range. However, it is preferable to use a rubber-based hot melt adhesive from the viewpoint of softness and odor. In addition, it is preferable that a functional group that increases polarity is imparted to the hot melt adhesive. When the polarity of the hot melt adhesive increases, it is possible to strengthen adhesion to the pulp fibers/the high absorbent polymer/the wrapping sheet 58 in a wet state by an intermolecular force. Further, a delayed crystalline type adhesive is preferably used as the hot melt adhesive H2 of the impregnation layer 562. The delayed crystalline type adhesive refers to a hot melt adhesive having a property of not crystallizing immediately after application and solidifying after penetrating between the fibers. Even a large amount of application rarely causes exudation, penetration to the absorbent body 56 side occurs over time, and it is possible to increase adhesive strength of the wrapping sheet 58 and the absorbent body 56.

(Method of Manufacturing Absorbent Element)

FIG. 14 to FIG. 16 illustrate a first example of a facility/process for manufacturing the above-described absorbent element 50, and FIG. 17 to FIG. 19 illustrate a second example. Sections (a) to (d) illustrated in FIG. 14 and FIG. 15 correspond to cross-sectional states of (a) to (d) illustrated in FIG. 16, and sections (a) to (d) illustrated in FIG. 17 and FIG. 18 correspond to cross-sectional states of (a) to (d) illustrated in FIG. 19. In this manufacturing facility 100, first, pulp fibers obtained by defibrating a pulp sheet 56 c, 56 n using a defibrating machine 101 and high absorbent polymer particles 56P are supplied from above a fiber accumulating drum 102 which is laterally disposed and rotationally driven. Absorbent body molds 102 m each of which has a rotation direction corresponding to the front-back direction are formed in a concave shape on an outer peripheral surface of the fiber accumulating drum 102, a plurality of suction holes (not illustrated) is formed in a bottom face of each absorbent body mold 102 m, and a mixture of the pulp fibers and the high absorbent polymer particles is accumulated in the absorbent body mold 102 m by suction from the suction holes in the absorbent body mold 102 m to form the absorbent body 56 at a feed location of the pulp fibers and the high absorbent polymer particles.

The colored fiber layer 52 may be provided in the manufactured absorbent body 56 by impregnating a dye into the colored pulp sheet 56 c in line before supply to the defibrating machine 101 or by dyeing the colored pulp sheet 56 c in advance. In the first example, as illustrated in FIG. 14, a plurality of fiber supply paths 102 i with respect to the fiber accumulating drum 102 may be provided in a rotation direction of the drum, the defibrating machines 101 may be separately provided with respect to the fiber supply paths 102 i, respectively, and the defibrating machine 101 and a fiber supply path 102 i for supplying the colored pulp sheet 56 c and the defibrating machine 101 and a fiber supply path 102 i for supplying the non-colored pulp sheet 56 n may be separated from each other, thereby forming the absorbent body 56 having the colored fiber layer 52 and the non-colored fiber layer 51. In particular, in the mode illustrated in FIG. 14, two sets of the defibrating machine 101 and the fiber supply path 102 i are provided, the non-colored pulp sheet 56 n is supplied to the defibrating machine 101 with respect to the fiber supply path 102 i on one side in the rotation direction, and the colored pulp sheet 56 c is supplied to the defibrating machine 101 with respect to the fiber supply path 102 i on the other side, thereby forming the colored fiber layer 52 on a bottom portion side (suction hole side) in each absorbent body mold 102 m and forming the non-colored fiber layer 51 on an inlet side of the absorbent body mold 102 m. However, a reversed mode may be adopted. The colored fiber layer 52 and the non-colored fiber layer 51 may be separately formed by providing one defibrating machine 101 and two fiber supply paths 102 i, adding a dye to a part of the pulp sheet 56 c in the width direction, and separating the fiber supply paths 102 i in the width direction after defibration.

In a case in which a plurality of fiber supply paths 102 i with respect to the fiber accumulating drum 102 is provided in the rotation direction of the drum as in the first example, when a supply amount of the high absorbent polymer particles 56P is made different for each of the fiber supply paths 102 i, and a clearance between an outlet of each of the fiber supply paths 102 i and the outer peripheral surface of the drum is changed, it is possible to change the content rate of the high absorbent polymer particles in an accumulation in each absorbent body mold 102 m stepwise or continuously. In particular, in the case illustrated in FIG. 14, a layer hardly containing the high absorbent polymer particles 56P is formed on the bottom portion side (suction hole side) in the absorbent body mold 102 m and a layer containing the high absorbent polymer particles 56P is formed on the inlet side of the absorbent body mold 102 m by supplying the high absorbent polymer particles 56P only to the fiber supply path 102 i on the side in the rotation direction. However, the high absorbent polymer particles 56P may be supplied to the opposite supply path. In this case, the layered structure in the absorbent body mold 102 m is reversed. However, in the latter case, a large amount of the high absorbent polymer particles 56P is contained on the suction hole side of the absorbent body mold 102 m in the fiber accumulating drum 102, and thus the high absorbent polymer particles 56P are likely to be clogged in the suction holes of the absorbent body mold 102 m. On the other hand, in the former case, there is an advantage that it is difficult for the high absorbent polymer particles 56P to be clogged in the suction holes of the absorbent body mold 102 m.

As understood from the above description, the absorbent body 56 manufactured by the mode illustrated in FIG. 14 has the colored fiber layer 52 which is located closest to the back face side and does not contain the high absorbent polymer particles 56P and the non-colored fiber layer 51 which is located on the front face side of the colored fiber layer and contains the high absorbent polymer particles 56P.

Meanwhile, in the second example, only one set of the defibrating machine 101 and the fiber supply path 102 i is included, and the absorbent body 56 in which the whole corresponds to the colored fiber layer 52 and the high absorbent polymer particles 56P are mixed in the whole in the thickness direction is formed by supplying the colored pulp sheet 56 c to the defibrating machine 101.

The absorbent body 56 formed in each absorbent body mold 102 m is demolded from the mold and transferred onto the wrapping sheet 58 when the absorbent body 56 is located at a position facing the continuum-shaped wrapping sheet 58 supplied along the outer peripheral surface of the fiber accumulating drum 102 by rotation of the fiber accumulating drum 102. A first adhesive layer G1 is formed on a transfer surface of the wrapping sheet 58 for the absorbent body 56 by applying the hot melt adhesive M1 in advance, and the absorbent body 56 is bonded to the wrapping sheet 58 by the first adhesive layer G1. When this first bonding process is successively performed, the absorbent body 56 is intermittently supplied onto the continuously conveyed wrapping sheet 58, and adhesion is successively performed.

The width of the wrapping sheet 58 in the CD orthogonal to the MD (a conveying direction of the sheet) is wider than that of the absorbent body 56. After the absorbent body 56 is transferred onto an intermediate part 58 m in the CD, a second adhesive layer G2 is formed over the maximum width of an upper surface of the absorbent body 56 by applying a hot melt adhesive M2. The second adhesive layer G2 is an adhesive layer mainly intended to increase shape maintainability of the absorbent body 56 by being impregnated into the absorbent body 56. However, the second adhesive layer G2 also functions as an adhesive for the wrapping sheet 58. In addition, as necessary, a third adhesive layer G3 for bonding the connecting portion by applying a hot melt adhesive M3 is formed at one end portion of the wrapping sheet in the CD.

When accumulation is performed such that a large amount of the high absorbent polymer particles 56P is contained on a bottom side of each absorbent body mold 102 m in the fiber accumulating drum 102 and the high absorbent polymer particles 56P are transferred onto the wrapping sheet 58 (in this instance, upper and lower sides of the absorbent body 56 are switched) before application of the hot melt adhesive M2 for forming the second adhesive layer G2, a large amount of the high absorbent polymer particles 56P is contained on the upper surface side of the absorbent body 56. Thus, there is a problem that when the hot melt adhesive M2 is applied to the upper surface of the absorbent body 56, the high absorbent polymer particles 56P are likely to scatter due to an application force thereof. On the other hand, when accumulation is performed such that the content rate of the high absorbent polymer particles increases stepwise or continuously from the bottom side toward the inlet side of the absorbent body mold 102 m in the fiber accumulating drum 102, and the hot melt adhesive M2 is applied to the upper surface of the absorbent body 56, the content rate of the high absorbent polymer particles 56P decreases toward the upper surface side of the absorbent body 56, and the high absorbent polymer particles rarely scatter.

After application of the second adhesive layer G2, both side parts 58 s of the wrapping sheet 58 in the CD extending beyond both sides of the absorbent body 56 are folded back at positions along both side edges of the absorbent body 56 and bonded to the upper face of the absorbent body 56 by a sailor (not illustrated) (second bonding process), and both end portions in the CD are overlapped and bonded by the third adhesive layer G3 formed by applying the hot melt adhesive M3 to an overlapping portion in advance, thereby forming a connecting portion 58 c. For bonding of these portions, after the wrapping sheet 58 is folded back, the portions may be pressed and attached through a pair of pressure rolls 104. In this way, a continuous body of the absorbent element 50 to which the absorbent body 56 is intermittently fixed in the MD is formed in the barrel-shaped continuous body of the wrapping sheet 58 which is continuous in the MD.

In a case of manufacturing the underpants-type disposable diaper as in the present embodiment, the continuous body of the absorbent element 50 manufactured through the first bonding process and the second bonding process is interposed between the continuum-shaped top sheet 30 and the continuum-shaped liquid impervious sheet 11, and intermittently cut in the MD to become the individual inner members 200 after the continuous bodies of the leg gathers 60 are attached as necessary, and then attached to the continuous members of the separately manufactured outer members 12F and 12B, and folded in the front-back direction thereof to overlap each other. Thereafter, the side seal portions 12A are formed, and cutting is performed to obtain individual diapers. When a pad type disposable diaper or a tape type disposable diaper is manufactured, the continuous body of the absorbent element is interposed between the continuum-shaped top sheet and the continuum-shaped liquid impervious sheet, and intermittently cut in the MD after the continuous bodies of the leg gathers are attached as necessary (fastening tapes are also attached in the case of the tape type disposable diaper), thereby becoming individual diapers.

When the connecting portion 58 c of the wrapping sheet 58 is located on the back face side of the absorbent body 56 as described above, after the absorbent element 50 is manufactured while maintaining an orientation immediately behind the fiber accumulating drum 102 as in the illustrated mode, a direction of the absorbent element 50 is reversed upside down by being reversed using rolls. Then, a member mounted on the front face side of the absorbent body 56 in the absorbent article may be attached to an upper side thereof, and a member mounted on the back face side of the absorbent body 56 in the absorbent article may be attached to a lower side thereof. Even when the direction of the absorbent element 50 is not reversed upside down, the member mounted on the back face side of the absorbent body 56 in the absorbent article may be attached to the upper side thereof, and the member mounted on the front face side of the absorbent body 56 in the absorbent article may be attached to the lower side thereof. When the connecting portion 58 c of the wrapping sheet 58 is located on the front face side of the absorbent body 56, the member mounted on the front face side of the absorbent body 56 in the absorbent article may be attached to an upper side thereof, and the member mounted on the back face side of the absorbent body 56 in the absorbent article may be attached to a lower side thereof without reversing the absorbent element 50 upside down while maintaining the orientation immediately behind the fiber accumulating drum 102.

The application width W1 of the first adhesive layer G1 and the application width of the second adhesive layer G2 may be appropriately determined. However, as in the first example illustrated in FIG. 14 to FIG. 16, it is preferable that the first adhesive layer G1 is formed on the wrapping sheet 58 to have a width larger than the sum of the width 56 x of the absorbent body 56 and both the thicknesses 56 t of the absorbent body 56 in the first bonding process (a) to (b), and the folded portion and the upper surface of the absorbent body 56 are bonded through the first adhesive layer G1 applied to the folded portion and the second adhesive layer G2 applied to the upper surface of the absorbent body 56 at least at the both end portions in the width direction of the absorbent body 56 in the second bonding process (c) to (d). In this way, on the lower surface side of the absorbent body 56 (the opposite side from the side having the connecting portion 58 c of the wrapping sheet 58), the internal surface of the wrapping sheet 58 is bonded to the absorbent body 56 only by the first adhesive. On the other hand, on the upper surface side of the absorbent body 56 (the side having the connecting portion 58 c of the wrapping sheet 58), at least in a region of the both end portions in the width direction, the internal surface of the wrapping sheet 58 is bonded to the absorbent body 56 by two layers corresponding to the first adhesive layer G1 and the second adhesive layer G2. As a result, on the upper surface side of the absorbent body 56 (the side having the connecting portion 58 c of the wrapping sheet 58) where the adhesive force is likely to decrease rather than on the lower surface side of the absorbent body 56, the usage amount of the hot melt adhesives H1 and H2 at least in the region of the both end portions in the width direction may be increased more than that on the opposite side of the absorbent body 56. In addition, the side surface of the absorbent body 56 may be bonded without a gap. Therefore, it is possible to effectively suppress shape deformation of the absorbent body 56 while suppressing the total usage amount of the hot melt adhesives H1 and H2 for bonding the absorbent body 56 and the wrapping sheet 58 together.

In the case in which the first adhesive layer G1 is formed to have a width larger than the sum of the width of the absorbent body 56 and both the thicknesses of the absorbent body 56 as described above, when a press process is performed over the maximum width of the absorbent body 56 between the first bonding process (a) to (b) and the second bonding process (c) to (d) as illustrated in FIG. 17, there is concern that the first adhesive layer G1 protruding to the both sides of the absorbent body 56 in the width direction may adhere to a pressing device 103. Therefore, between the first bonding process (a) to (b) and the second bonding process (c) to (d), it is desirable that the press process of compressing the absorbent body 56 over the maximum width thereof is not performed, pressing is performed at a narrower width than the maximum width of the absorbent body 56 when the press process is performed, or an application width W1 of the first adhesive layer is made smaller than the width 56 x of the absorbent body 56 as illustrated in FIG. 17.

The application width W1 of the first adhesive layer G1 may be wider than the sum of the width 56 x of the absorbent body 56 and both the thicknesses 56 t of the absorbent body 56. However, in a case in which the narrowing portions 53 along the legs are included in the absorbent body 56 as in the illustrated mode, the width is preferably wider than a width obtained by further adding depression widths W2 of the narrowing portions 53 to the both sides in the CD. In this way, a part bonded by the two layers corresponding to the first adhesive layer G1 and the second adhesive layer G2 reaches an edge of each narrowing portion 53, and wrapping sheets 58 are strongly bonded by three layers corresponding to the first adhesive layer G1 on the connecting portion 58 c side, the second adhesive layer G2, and the first adhesive layer G1 on the opposite side in a depressed part of the narrowing portion 53. Therefore, it is possible to effectively prevent shape deformation of the absorbent body 56 in the narrowing portions 53.

In addition, when the absorbent body 56 has the above-described slit 54 as in the mode illustrated in FIG. 12(b), the application width W1 of the first adhesive layer G1 is preferably wider than a width obtained by adding widths W3 each from a side edge of the absorbent body 56 to a side edge of the slit 54 to the both sides in the CD with respect to the sum of the width of the absorbent body 56 and both the thicknesses of the absorbent body 56. In this way, a part bonded by the two layers corresponding to the first adhesive layer G1 and the second adhesive layer G2 reaches an edge of the slit 54, and wrapping sheets 58 are strongly bonded by three layers corresponding to the first adhesive layer G1 on the connecting portion 58 c side, the second adhesive layer G2, and the first adhesive layer G1 on the opposite side at least at the both end portions of the slit 54 in the width direction. Therefore, it is possible to effectively prevent shape deformation of the absorbent body 56 in the slit 54.

Further, as in the mode illustrated in FIG. 12(b), the application width W1 of the first adhesive layer G1 may be extended to an overlapping part of the wrapping sheet 58 to bond the overlapping part by the first adhesive layer G1.

An application pattern of the hot melt adhesives M1 and M2 for forming the first adhesive layer G1 and the second adhesive layer G2 is not particularly restricted. However, since the first adhesive layer G1 is applied in a wide range of the wrapping sheet 58 and serves as a base for adhesion between the wrapping sheet 58 and the absorbent body 56 (forming the above-described adhesive layer 561), permeability into the wrapping sheet 58 and the absorbent body 56 may not be increased. On the other hand, a main object of the second adhesive layer G2 is to increase shape maintainability of the absorbent body 56 by being impregnated into the absorbent body 56 (forming the above-described impregnation layer 562), and thus permeability into the absorbent body 56 is preferably high. From such a viewpoint, it is preferable that the hot melt adhesive M1 in the first adhesive layer G1 is applied in the form of a spiral or a mesh, and the hot melt adhesive M2 in the second adhesive layer G2 is applied in solid coating.

For the same reason, the hot melt adhesive M1 in the first adhesive layer G1 preferably has melt viscosity of 4,000 to 9,000 mPa·s, and the hot melt adhesive M2 in the second adhesive layer G2 preferably has melt viscosity of 1,000 to 6,000 mPa·s. In addition, it is preferable that the hot melt adhesive M2 in the second adhesive layer G2 has lower viscosity than the hot melt adhesive M1 in the first adhesive layer G1.

(Leg Gathers)

The leg gathers 60 extend along both sides of the absorption surface of the inner member 200 in the width direction and rise toward the legs of the wearer, and are provided to block urine or loose stools moving in a lateral direction on the top sheet 30 and prevent side leak.

As illustrated in FIG. 3 and FIG. 4, each leg gather 60 of the present mode includes an inner nonwoven fabric layer 61 in an inner surface in the width direction, an outer nonwoven fabric layer 62 in an outer surface in the width direction, gather elastically stretchable members 63 provided along the front-back direction between the inner nonwoven fabric layer 61 and the outer nonwoven fabric layer 62 at least at tip portions in the middle in the front-back direction, and a liquid impervious sheet 64 (11) interposed between the inner nonwoven fabric layer 61 and the outer nonwoven fabric layer 62 over a range from a base to a position on a tip side of the base. In the illustrated mode, a part which has the liquid impervious sheet 64 in the leg gather 60 and is on the base side of the tip portion serves as a nonwoven fabric non-existing part 65 in which the inner nonwoven fabric layer 61 is not present and the liquid impervious sheet 64 is exposed across the whole leg gather 60 in the front-back direction. In this way, it is possible to reduce the usage amount of the nonwoven fabric by providing the nonwoven fabric non-existing part 65 in which the inner nonwoven fabric layer 61 is not present in the leg gather 60. In addition, since the tip portion of the leg gather 60 is a part coming into contact with the skin, when the nonwoven fabric non-existing part 65 is provided by avoiding the part, the liquid impervious sheet 64 rarely comes into contact with the skin, and deterioration of the touch may be suppressed.

In the mode illustrated in FIG. 1 to FIG. 6, the whole liquid impervious sheet 64 may be concealed by extending the inner nonwoven fabric layer 61 up to a side portion of the top sheet 30 or forming the leg gathers 60 having the structure illustrated in FIG. 7 and FIG. 8.

The gather elastically stretchable member 63 may be provided only at the tip portion of the leg gather 60. However, it is preferable that a plurality of gather elastically stretchable members is provided at an interval in a direction from the tip toward the base of the leg gather 60 as in the illustrated mode. In a normal case, the number of gather elastically stretchable members 63 is preferably two to six, and a mutual interval 60 d therebetween is preferably 3 to 10 mm. In this way, when the plurality of gather elastically stretchable members 63 is provided at the interval, each interval part is depressed outward. Thus, when the nonwoven fabric non-existing part 65 is provided only in the interval part as in the illustrated mode, the liquid impervious sheet 64 exposed to the nonwoven fabric non-existing part 65 is rarely depressed to come into contact with the skin, and thus it is preferable. In this case, as in the mode illustrated in FIG. 1 to FIG. 6, it is particularly preferable to provide one or a plurality of gather elastically stretchable members 63 at an interval at least only in the tip portion and the base portion of the leg gather 60, respectively, and provide the nonwoven fabric non-existing part 65 only in an interval part between the gather elastically stretchable member 63 in the base portion and the gather elastically stretchable member 63 in the tip portion.

A front-back direction range in which the gather elastically stretchable member 63 is provided in the leg gather 60 may be set to the whole leg gather 60 in the front-back direction, and is preferably set to a front-back direction range of a rising part or less.

In addition, the gather elastically stretchable member 63 may be provided inside the liquid impervious sheet 64 incorporated in the leg gather 60 as in the mode illustrated in FIG. 3 and FIG. 9 or provided outside the liquid impervious sheet 64 as in the mode illustrated in FIG. 10 as long as the gather elastically stretchable member 63 is provided between the inner nonwoven fabric layer 61 and the outer nonwoven fabric layer 62 (for this reason, not provided in the nonwoven fabric non-existing part 65).

A range in which the liquid pervious film 64 is provided may be set to a range from the base to an intermediate position between the base and the tip as long as the range corresponds to a range from the base of the leg gather 60 to a position on the tip side of the base. However, the range is desirably provided up to the tip portion to sufficiently improve water-blocking capability, and is preferably set up to a position slightly spaced from the tip portion (for example, by the plurality of gather elastically stretchable members, specifically, about 5 to 30 mm) as in the mode illustrated in FIG. 3 and FIG. 4. Further, it is preferable to ensure flexibility of touch by not incorporating the liquid pervious film 64 in the tip portion.

In addition, in a mode in which the liquid impervious sheet 64 is exposed to the nonwoven fabric non-existing part 65, there is concern that the liquid impervious sheet 64 exposed to the nonwoven fabric non-existing part 65 may be pressed against the skin in a part 60W in which the front side outer member 12F and the back side outer member 12B overlap each other in the leg gather 60. However, when the part 60W is fixed to the front side outer member 12F and the back side outer member 12B and contracted in the width direction by the elastically stretchable members 15 and 19 of the front side outer member 12F and the back side outer member 12B as in the mode illustrated in FIG. 1 to FIG. 6, a contact area of the part 60W with respect to the skin remarkably decreases due to contraction wrinkles even when the liquid impervious sheet 64 is exposed. Thus, an influence on the touch is small. In the leg gather 60 of this mode, a region from the fixed portion 60W to the front side outer member 12F and the back side outer member 12B rises toward the leg as indicated by a two-dot chain line in FIG. 3 using the side edge of the absorbent body 56 as a base in response to contraction of the gather elastically stretchable member 63.

A member configuration of the leg gather 60 is not particularly restricted, and a known structure may be adopted. In the mode illustrated in FIG. 1 to FIG. 6, the top sheet 30 is made of a nonwoven fabric, both sides thereof in the width direction are configured to extend from the side edges of the absorbent body 56, a gather sheet 66 made of a nonwoven fabric is provided on the back face side of the absorbent body 56, both sides thereof in the width direction are configured to extend from the side edges of the absorbent body 56, each side end portion of the gather sheet 66 is folded back, a tip of a folded part 66 r is spaced from the tip of the top sheet 30, and the liquid impervious sheet 64 is provided at least from between folded parts 66 r of the gather sheet 66 to between the top sheet 30 and the gather sheet 66. Further, as a result, the outer nonwoven fabric layer 62 is formed by a part of the gather sheet 66 other than the folded part 66 r, the inner nonwoven fabric layer 61 is formed by the folded part 66 r of the gather sheet 66 and a part extending to a side of the absorbent body 56 in the top sheet 30, and the nonwoven fabric non-existing part 65 is formed by a part in which the folded part 66 r of the gather sheet 66 is spaced from the top sheet 30. In this way, when the inner nonwoven fabric layer 61 on the base side of the nonwoven fabric non-existing part 65 in the leg gather 60 is formed by the top sheet 30, and the other part is formed by the gather sheet 66, the nonwoven fabric non-existing part 65 may be provided without cutting the material, a structure thereof is significantly simple, and manufacture is easy.

In this case, when the liquid impervious sheet 64 of the leg gather 60 is extended from one side of the leg gather 60 to the other side of the leg gather 60 through the back face side of the absorbent body 56 as in the mode illustrated in FIG. 3 and FIG. 4, it is possible to integrally ensure water-blocking capability of the back face side of the absorbent body 56 in addition to water-blocking capability of the leg gather 60, and thus it is preferable. However, as in the mode illustrated in FIG. 7 and FIG. 8, it is possible to individually provide the liquid pervious film 64 incorporated in the leg gather 60 and the liquid pervious film 11 covering the back face side of the absorbent body 56. In the latter case, a material of the liquid pervious film 64 incorporated in the leg gather 60 and a material 11 of the liquid pervious film covering the back face side of the absorbent body 56 may be identical to each other or different from each other.

Similarly, when the gather sheet 66 is formed by a single sheet from one leg gather 60 to the other leg gather 60 through the back face side of the absorbent body 56 as in the mode illustrated FIG. 3 and FIG. 4, a cloth-like external surface is obtained without separately providing the above-described crotch portion cover sheet, and thus it is preferable. However, the gather sheet 66 and a crotch portion cover sheet 12M may be separately provided as in the mode illustrated FIG. 7 and FIG. 8.

As another structure of the leg gather 60, it is possible to adopt a structure including a mounting part 68 fixed to the back face side of the inner member 200, an extended part 69 extended from the mounting part 68 to a side surface of the inner member 200 by being wrapped around a side of the inner member 200, a fallen part 69B formed by both end portions of the extended part 69 in the front-back direction fixed to the side surface of the inner member 200 in a fallen state, a free part 69F formed by not fixing an intermediate portion between the fallen parts in the extended part, and the gather elastically stretchable member 63 fixed at least to a tip of the free part 69F along the front-back direction in a stretched state as in the mode illustrated FIG. 7 and FIG. 8. In this leg gather 60, in response to contraction of the gather elastically stretchable member 63, the free part 69F rises toward the leg indicated by a two-dot chain line in FIG. 9 using a boundary between the free part 69F and the mounting part 68 as the base.

The extended part 69 of the leg gather 60 of the mode illustrated FIG. 7 and FIG. 8 includes a root side part directed toward a center side in the width direction and a tip side part folded back outward in the width direction from a tip of the root side part. However, the extended part 69 may include only a part directed toward the center side in the width direction without being folded back outward in the width direction (not illustrated).

Meanwhile, in the intermediate region in the front-back direction corresponding to a rising part of the leg gather 60, at least one of a hot melt adhesive based on various application schemes and fixing means based on material welding such as heat sealing, ultrasonic sealing, etc. may be used for joining of the inner nonwoven fabric layer 61 and the outer nonwoven fabric layer 62 or fixing of the gather elastically stretchable member 63 interposed therebetween. It is preferred that the portions other than the bonded portions of the elastically stretchable gather members 63 not be bonded or be weakly bonded because bonding of the entire faces of the inner nonwoven fabric layer 61 and the outer nonwoven fabric layer 62 impairs flexibility. The illustrated mode has a structure in which fixing of the elongated elastically stretchable member to the inner nonwoven fabric layer 61 and the outer nonwoven fabric layer 62 and fixing between the inner nonwoven fabric layer 61 and the outer nonwoven fabric layer 62 are performed using only the hot melt adhesive applied to the outer peripheral surface of the gather elastically stretchable member 63 by applying the hot melt adhesive only to the outer peripheral surface of the gather elastically stretchable member 63 using application means such as comb gun or Surewrap nozzle, etc. and interposing the gather elastically stretchable member 63 between the inner nonwoven fabric layer 61 and the outer nonwoven fabric layer 62.

In addition, in a non-rising part at both sides of the leg gather 60 in the front-back direction, at least one of a hot melt adhesive based on various application schemes and fixing means 67 based on material welding such as heat sealing, ultrasonic sealing, etc. may be used for bonding of the inner nonwoven fabric layer 61 and the outer nonwoven fabric layer 62, fixing of the leg gather 60 having the mode illustrated in FIG. 1 to FIG. 6 to the front side outer member 12F and the back side outer member 12B, fixing of the root side part and the tip side part in the leg gather 60 having the mode illustrated in FIG. 7 and FIG. 8, and fixing thereof to the side surface of the inner member 200. In the illustrated mode, the hot melt adhesive and the fixing means 67 based on material welding are combined together. However, fixing may be performed using only one of the means.

Dimensions of the leg gather 60 may be appropriately determined. However, in a case of a disposable diaper for infants, a rising height of the leg gather 60 (an interval between the tip and the base in the width direction in the spread state) is preferably 15 to 60 mm, particularly 20 to 40 mm.

In each of the above modes, a material obtained by performing a water repellent treatment on a nonwoven fabric which is flexible and excellent in uniformity/concealing property such as spun bond nonwoven fabric (SS, SSS, etc.), SMS nonwoven fabric (SMS, SSMMS, etc.), melt blown nonwoven fabric, etc. using silicone, etc. as necessary may be suitably used as the inner nonwoven fabric layer 61 and the outer nonwoven fabric layer 62, and a fiber basis weight is preferably set to about 10 to 30 g/m². In the mode illustrated in FIG. 3 and FIG. 4, as understood from that fact that the inner nonwoven fabric layer 61 on the base side of the nonwoven fabric non-existing part 65 is formed by the top sheet 30, the materials of the inner nonwoven fabric layer 61 and the outer nonwoven fabric layer 62 may be made partially different from each other, and the materials of the inner nonwoven fabric layer 61 and the outer nonwoven fabric layer 62 may be made different from each other.

In each of the above modes, an elongated elastically stretchable member such as thread-like rubber, band-like rubber, etc. may be used as the gather elastically stretchable member 63. In a case of using a rubber thread, a fineness is preferably in a range of 470 to 1,240 dtex, more preferably in a range of 620 to 940 dtex. A stretch rate at the time of fixing is preferably in a range of 150 to 350%, more preferably in a range of 200 to 300%.

In each of the above modes, one row of leg gather 60 is provided on each of the left and right sides. However, a plurality of rows of leg gathers may be provided.

<Description of Terms in Specification>

When terms below are used in the specification, the terms have meanings below unless otherwise specified in the specification.

-   -   The “front-back (longitudinal) direction” refers to a direction         connecting a ventral side (front side) and a dorsal side (back         side), and the “width direction” refers to a direction         (left-right direction) orthogonal to the front-back direction.     -   The “spread state” refers to a flatly spread state without         contraction or slack.     -   The “stretch rate” refers to a value when a natural length is         set to 100%.     -   The “basis weight” is set as below. A sample or a specimen is         pre-dried, and then is left in a test room or a device in a         standard state (temperature 20±5° C., relative humidity 65% or         less in a test location), and is put in a constant weight state.         Pre-drying refers to setting the weight of the sample or the         specimen to a constant weight in an environment in which         relative humidity is in a range of 10 to 25% and temperature         does not exceed 50° C. Pre-drying is unnecessary for a fiber         having an official moisture regain of 0.0%. A sample having         dimensions of 200 mm×250 mm (±2 mm) is cut off from the specimen         in the constant weight state using a cutting template (200         mm×250 mm, ±2 mm). A weight of the sample is measured and         multiplied by 20 to calculate a weight per square meter, and the         weight is set to the basis weight.     -   A “thickness” is automatically measured using an automatic         thickness measurement apparatus (KES-G5 handy Compression         Tester) under the condition of a load of 10 gf/cm² and a         pressurized area of 2 cm².     -   The “water absorption amount” is measured by JIS K7223-1996         “Testing method for water absorption capacity of super absorbent         polymers”.     -   The “water absorption rate” is set to a “time that elapses         before the end point” when JIS K7224-1996 “Testing method for         water absorption rate of super absorbent polymers” is performed         using 2 g of high absorbent polymers and 50 g of physiological         saline.     -   A “bending resistance” refers to JIS L 1096:2010 “8.21.1 Method         A (45° cantilever method)” of a “Testing method for woven and         knitted fabrics”.     -   The “melt viscosity” is measured at a temperature of 140° C.         using a Brookfield B type viscometer (Spindle No. 027) in         accordance with JIS Z 8803.     -   The tests and measurements are carried out in a laboratory or an         apparatus under normal conditions (a temperature of 20±5° C. and         a relative humidity of 65% or less at the testing site), unless         the environmental condition for the tests and measurements are         otherwise specified.     -   The dimensions of the components are measured in a spread state,         not a natural length state, unless otherwise specified.

INDUSTRIAL APPLICABILITY

The invention is suitable for an underpants-type disposable diaper as in the above example. However, the invention is applicable to a tape type or pad type disposable diaper and a general absorbent article such as a sanitary napkin.

REFERENCE SIGNS LIST

11 . . . liquid impervious sheet, 12F, 12B . . . outer member, 12A . . . side seal portion, 12B . . . back side outer member, 12F . . . front side outer member, 30 . . . top sheet, 40 . . . intermediate sheet, 50 . . . absorbent element, 56 . . . absorbent body, 58 . . . wrapping sheet, 60 . . . leg gather, 61 . . . inner nonwoven fabric layer, 62 . . . outer nonwoven fabric layer, 63 . . . gather elastically stretchable member, 64 . . . liquid impervious sheet, 65 . . . nonwoven fabric non-existing part, 66 . . . gather sheet, 66 r . . . folded part, 200 . . . inner member, 12S . . . outer sheet layer, 12H . . . inner sheet layer, 19 . . . elastically stretchable member, 17 . . . waist portion elastically stretchable member, 15, 18 . . . under-waist portion elastically stretchable member, 16 . . . cover portion elastically stretchable member, 53 . . . narrowing portion, 54 . . . slit, 58 c . . . connecting portion, H1, H2 . . . hot melt adhesive, 101 . . . defibrating machine, 102 . . . fiber accumulating drum, 100 . . . manufacturing facility, 102 m . . . absorbent body mold, G1 . . . first adhesive layer, G2 . . . second adhesive layer, G3 . . . third adhesive layer, 56P . . . high absorbent polymer particles, 52 . . . colored fiber layer, 51 . . . non-colored fiber layer, 80 . . . excretion indicator, 56 c, 56 n . . . pulp sheet, 56 c . . . colored pulp sheet, 56 n . . . non-colored pulp sheet. 

The invention claimed is:
 1. An absorbent article, comprising an absorbent body a front face side and a back face side and extending both in a front-back direction and in a width direction oriented perpendicular to the front-back direction, wherein the front face side is configured to contact skin of a user of the absorbent article and wherein the absorbent body comprises: a colored fiber layer located proximate the back face side and visually recognizable when viewing the back face side from an exterior of the absorbent body when the absorbent article is in use, the colored fiber layer comprising pulp fibers colored in a different color from a color of any other layer of the absorbent body, wherein the plurality of pulp fibers have a color value in a Munsell color system in the range of 4 to 9, and a non-colored fiber layer positioned above the colored fiber layer and proximate the front face side; wherein the non-colored fiber layer contains high absorbent polymer particles, and the colored fiber layer does not contain the high absorbent polymer particles.
 2. The absorbent article according to claim 1, wherein the colored fiber layer further comprises a slit extending through the colored fiber layer in a thickness direction, wherein the thickness direction extends from the front face side to the back face side.
 3. The absorbent article according to claim 2, wherein the slit extends from a left side boundary to a right side boundary in the width direction, and wherein the absorbent body further comprises an excretion indicator, at least a portion of the excretion indicator located at a position between the left side boundary and the right side boundary of the slit.
 4. The absorbent article according to claim 1, wherein the absorbent article corresponds to: an underpants-type disposable diaper including a crotch portion comprising the absorbent body, a ventral side part extending at a front side of the crotch portion, a dorsal side part extending at a back side of the crotch portion, both side portions of the ventral side part and both side portions of the dorsal side part being joined together, respectively, or a tape-type disposable diaper including a crotch portion comprising the absorbent body, a ventral side part extending at a front side of the crotch portion, a dorsal side part extending at a back side of the crotch portion, and fastening tapes protruding from both side portions of the dorsal side part, respectively, to be connected to an external surface of the ventral side part.
 5. The absorbent article according to claim 1, wherein: a basis weight amount of the high absorbent polymer particles is in the range of 50 to 350 g/m²; the non-colored fiber layer further contains pulp fibers; and a weight ratio of pulp fibers to high absorbent polymer particles in the absorbent body is in the range of 50:50 to 20:80. 